Paper Titles

Invariant Features Tracking Based on Transiently Chaotic Neural Network for Markerless Augmented Reality
p.37

Variable Precision Rough Set Optimization Algorithm for Constructing Decision Tree
p.43

Study on Cost Management under EPC General Contracting Model
p.49

Trajectory Modeling of Moving Objects Based in Spatio-Temporal Database
p.54

Testing-Point Optimizing Technology Based on PSO in Fault Diagnosis
p.60

Immune Danger Theory Based Model for SYN Flooding Attack Situation Awareness
p.66

Design and Development of Warehouse Management System of Inland River Port
p.72

Influence of Multi-Step Cumulative Deformation on Static Recrystallization of Steel 26Cr2Ni4MoV
p.78

Based on the Minimum Variance Spectral Estimation of Radar Wind Profile Analysis
p.82

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 181-182Testing-Point Optimizing Technology Based on PSO...

Testing-Point Optimizing Technology Based on PSO in Fault Diagnosis

Article Preview

Abstract:

In this paper, for such a complex dynamical system as gear box, the transfer characteristic model of different excitation points and responsive points is constructed. Considering the actual condition that the vibration signals from different parts the inner gear box arrive in the box’ surface by different paths and mutual mixes, the basic method on sensor optimization and testing-point configuration based on PSO is put forward for fault detection. Through the testing analysis of every point’s transfer characteristic curve and the optimization of the transfer characteristic parameters, it is not only gives the basic optimization principle of testing configuration, but also proves that the sensor and testing-point optimal configuration technology based on PSO is feasible.

You might also be interested in these eBooks

Advanced Materials Science and Technology, ICMST 2010

Info:

Periodical:

Advanced Materials Research (Volumes 181-182)

Pages:

60-65

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.181-182.60

Citation:

Cite this paper

Online since:

January 2011

Authors:

Hong Xia Pan, Jin Ying Huang

Keywords:

Fault Diagnosis, Gear Box, Particle Swarm Optimization Algorithm (PSO), Testing-Point Optimizing

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2011 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Wang Yanchen: The research of sensor optimizing configuration in bridge monitoring, Journal of Shijiazhuang Railway Institute, Vol. 19. 9, (2006).

[2] Wang Yinkun, Wang Xueqi, Xiao Mingqing: The testing-point optimizing configuration method based on fault diagnosis value measure, Systems Engineering and Electronics, Vol. 28. 10, (2006).

[3] Yoshida H, Kawata K, Fukuyama Y, Takayama S and Nakanishi Y: A particle swarm optimization for reactive power and voltage control considering voltage security assessment, Transactions of the Institute of Electrical Engineers of Japan , (1999).

DOI: 10.1109/59.898095

[4] Juan C, Ramallo, Erik A and Johnson, etc.: Effects of Semi-active Damping on the Response of Base-Isolated Buildings, The 13th ASCE Engineering Mechanics Division Conference, Johns Hop-kins University, Baltimore, Maryland, June 13-16, (1999).

[5] G. Mikuowski, J. Holnicki-Szulc: Adaptive aircraft shock absorbers, AMAS workshop on Smart Materials and Structures SMATR, pp.63-72, (2003).

[6] H. Yoshioka, J.C. Ramalb, B.F. Spencer: Smart Base Isolation Strategies Employing Magnetorheological Dampers, Journal of Engineering Mechanics, May (2002).

DOI: 10.1061/(asce)0733-9399(2002)128:5(540)

[3] 23E-05 1.

0007947 Point 4 900r/min normal.

370812.

9999422.

0046763 Point 1 1200r/min normal.

[5] 81E-16 1.

[7] 02E-10 Point 4 1200r/min normal.

[2] 89E-07.

9999992.

[6] 78E-10 Point 1 900r/min bearing cup.

[3] 27E-11.

0115247.

8904129 Point 4 900r/min bearing cup.

6642637.

0304513.

0887846 Point 1 1200r/min bearing cup.

[7] 36E-05.

[1] 49E-06.

9999774 Point 4 1200r/min bearing cup.

[6] 32E-16 1.

[8] 91E-10 Point 1 900r/min tooth-collapse.

9959282.

0019297.

[5] 25E-08 Point 4 900r/min tooth-collapse.

6170945.

[7] 40E-05.

9874683 Point 1 1200r/min tooth-collapse.

9999999.

[5] 59E-10.

[1] 27E-05 Point 4 1200r/min tooth-collapse.

0148889.

[5] 98E-05.

9969465 Point 2 900r/min normal.

5141068.

6336444.

[3] 60E-09 Point 5 900r/min normal.

1764137.

9999985.

[5] 49E-07 Point 2 1200r/min normal.

0042547.

9990901.

[1] 08E-10 Point 5 1200r/min normal.

0027467 1.

[4] 96E-27 Point 2 900r/min bearing cup.

[5] 48E-16 1.

[5] 11E-10 Point 5 900r/min bearing cup.

[7] 47E-08.

[7] 74E-07.

9999971 Point 2 1200r/min bearing cup.

9829622.

1048577.

[1] 01E-05 Point 5 1200r/min bearing cup.

0167843.

[1] 80E-08.

9526344 Point 2 900r/min tooth-collapse.

9943477.

0038315.

[2] 97E-07 Point 5 900r/min tooth-collapse.

4555314.

06164249.

[1] 55E-08 Point 2 1200r/min tooth-collapse.

0015239.

9981714.

[1] 01E-09 Point 5 1200r/min tooth-collapse.

9993529.

00767131.

[8] 48E-11 Point 3 900r/min normal.

[3] 24E-05.

[4] 37E-08.

9999999 Point 6 900r/min normal 1.

[1] 42E-14.

[9] 47E-06 Point 3 1200r/min normal.

9999997.

[1] 23E-08.

7029566 Point 6 1200r/min normal.

0004788.

9902691.

0001690 Point 3 900r/min bearing cup.

5692037.

0004150.

8076008 Point 6 900r/min bearing cup.

0551279.

006659533.

9950697 Point 3 1200r/min bearing cup.

787618.

[8] 92E-05.

9932099 Point 6 1200r/min bearing cup.

[2] 46E-07.

[3] 93E-09 1 Point 3 900r/min tooth-collapse.

6223217.

0022386.

1203508 Point 6 900r/min tooth-collapse.

9240733.

002525921.

9415096 Point 3 1200r/min tooth-collapse.

[9] 27E-10.

[3] 40E-06.

9999381 Point 6 1200r/min tooth-collapse.

9993535.

007685084.

[8] 46E-11.